secondary containment: regulations & bmps
TRANSCRIPT
Secondary Containment:Regulations & BMPs
Beth PowellVice-President and General Manager
New Pig [email protected]
Federal Secondary ContainmentSafeguarding method in addition to the primary containment system
Specific/Sized– Indoor: Sump capacity should contain 10% of the volume of total
containers or the total volume of the largest container, whichever is greater
– Outdoor: Plus sufficient freeboard to contain precipitation
General– Address typical failure mode and the most likely quantity– Passive or Active
SPCCSpill Prevention, Control, and Countermeasure (SPCC)
– 40 CFR 112– Monitors plans to prevent oil spills at facilities
• Oil, oil-like and oil/water mixtures• 1320 gallons of above-ground storage capacity• Potential to reach “navigable waters”
• Defines oil pollution as a “sheen” on the water
http://www.epa.gov/osweroe1/docs/oil/spcc/spcc_101_prod.pdf
Completions Site
SPCC 40CFR112.7(c)
The entire containment system, including walls and floor,
must be capable of containing oil and must be constructed
so that any discharge from a primary containment system,
such as a tank or pipe, will not escape the containment
system before cleanup occurs.
RCRA
Resource Conservation & Recovery Act (RCRA)
– 40 CFR 260-265 (generator standards)
– Restricts hazardous waste collection and storage
– Exempts flowback fluids
• State laws still apply
– Does not exempt fracturing fluids
NPDES
National Pollutant Discharge Elimination System (NPDES)
– 40 CFR 122
– Limits water pollution through permits
– Defines oil pollution as a “sheen” on the water
– Regulates stormwater discharges from construction
sites
Pennsylvania State RegulationUnconventional well sites must be designed and constructed to prevent spills to the ground surface or off the well site. Containment practices must be in place during both drilling and hydraulic fracturing operations and must be sufficiently impervious and able to contain spilled materials, and be compatible with the waste material or waste stored within the containment. Containment plans must be submitted to the department and describe any equipment that is to be kept onsite to prevent a spill from leaving the well pad.
Containment systems shall be used wherever drilling mud, hydraulic oil, diesel fuel, drilling mud additives, hydraulic fracturing additives, and/or hydraulic fracturing flowback are stored. Containment areas must be sufficient to hold the volume of the largest container stored in the area plus ten percent. (§3218.2 of the Act)
Containment PracticesChoose a liner that is:
– Durable--Able to support the weight of heavy equipment, such as drilling rig and trucks.
– Impervious--Constructed from a synthetic material with a coefficient of permeability of no greater than 1 x 10-10 cm/sec and with sufficient strength and thickness to maintain the integrity of the liner.
– Chemically Compatible--Designed, constructed and maintained so that the physical and chemical characteristics of the liner are not adversely affected by the waste and the liner is resistant to physical, chemical and other failure during transportation, handling, installation and use.
Well Site ContainmentsPad
– Large square footage, typically centered off the wellheads– 15 to 20 cm high berms
Tank– 110% of the largest tank – 45 to 90 cm high berms
Equipment– Placed under equipment that is leak prone– 15 to 20 cm high berms
Chemical Storage– Placed under liquid and dry chemicals– 15 to 20 cm high berms
Pad ContainmentBest Management Practices
Surface LinersWork surfaces should be as cleanand dry as possible to prevent slips and falls.
Tip: Cover polyethylene liners in felt to increase the coefficient of friction.
Tip: Limit wrinkled, loose layers of material to reduce tripping hazards.
OSHA 29 CFR 1910.22SPCC 40 CFR 112.7NPDES 40 CFR 122.26 RCRA 40 CFR 264.175
Composite LinersComposite liners are slip resistant and 5X more puncture resistant.
Tip: Withstands rigging up and down.
Tip: Able to last through multiple operations.
Tip: Holes are readily detectable and easily repairable.
Tip: Recyclable to reduce landfill burden.
OSHA 29 CFR 1910.22SPCC 40 CFR 112.7NPDES 40 CFR 122.26 RCRA 40 CFR 264.175
New Pig Patents Pending
Pad Sub-baseAvoid mud.
Tip: Cement dirt should be capped with at least 2 inches of stone.
Tip: Stone should be <2 inches OD(2A-Modified, Crusher Run, #57).
Tip: Stone should rolled and firm (no rolling or pumping).
Tip: 2-4” of 2A-Modified or 2B covered by 1” of 1B is highly recommended.
Pad LayoutStart square to end square. This is important when using rig mats.
Tip: Square off of the main wellhead.
Tip: Mark side and account for berming width.
Tip: Use sand bags to keep panels in place.
Tip: Starting and stopping lines reduce wasted material.
Seam Welding
Automated wedge welders should be used for all liners to join large panels together.
Tip: Set to correct temperature and speed depending on liner and site conditions.
Tip: Liner should be spotted during welding.
Leak Testing
Split welder seams can be tested by pressure.
Solid wedge welder seams can be tested by air lance and vacuum.
Tip: Vacuum tester can be moved 30 inches every 10 seconds
Patching
Plastic Liner:1) Dry surface2) Heat tack patch3) Grind edge4) Extrusion weld
Composite Liner:1) Dry surface2) Surround with sealant3) Heat tack patch4) Surround with sealant
Attachment to Cellar
Prevents leak in cellar from backing up under the liner.
Tip: Attach with ice guard.
Tip: Attach with metal ring.
Tip: Spray coat with polyurea.
Tip: Build liner tube, cement in place,and weld surface liner to it.
Low-Wall Berming
Most common materials are railroad ties, corrugated pipe or foam.
Tip: Tie corrugated pipe corners together to prevent kick out.
Tip: Edges of liner should at least reach the top of the berm to maintain sump capacity.
Maintaining the Berm
Control access to either ramps or foam berms.
Tip: Don’t park on the berm.
Tip: Don’t cut away the berm.
Tip: Plastic barricades seem to have the most success in limiting traffic.
Grounding Rods
Ideally grounding rods should be outside of the pad containment.
Tip: Use a boot with standing pipe. Pipe should be as tall as the berm.
Hole Prone AreasPipe Racks
– Use plastic mats OR
– Keep liner tight to catwalk
Backyard– Use rig mats for trackhoe path to drill cutting bins
Outriggers– Use outrigger pads when positioning heavy equipment
Tank Containment
Frac Tank Containment110% of largest tank. Berm walls are metal, concrete or plastic barricades.
Tip: Subtract out tank displacement when calculating capacity.
Tip: Keep separate from pad containment. Berm should terminate, meaning no hats.
Tip: Higher sidewalls increase sump capacity for smaller areas.
OSHA 29 CFR 1910.22SPCC 40 CFR 112.7NPDES 40 CFR 122.26 RCRA 40 CFR 264.175
Fuel Tank Containment
Fuel tanks should be double wall construction so that secondary containment travels with the tank.
Tip: Tertiary containment
Tip: Quaternary containment
OSHA 29 CFR 1910.22SPCC 40 CFR 112.7NPDES 40 CFR 122.26 RCRA 40 CFR 264.175
Brine Tank Containment
Brine tanks are permanent structures and should have permanent secondary containment.
Tip: Install a ladder to prevent falls.
Tip: Load-line containment can prevent spills during transfer.
OSHA 29 CFR 1910.22SPCC 40 CFR 112.7NPDES 40 CFR 122.26 RCRA 40 CFR 264.175
Equipment Containment
Equipment Containment
Typically used under generators, light posts, and sewer treaters.
Tip: Can be reused from site to site.
OSHA 29 CFR 1910.22SPCC 40 CFR 112.7NPDES 40 CFR 122.26 RCRA 40 CFR 264.175
Collapsible Storage
Lightweight and reusable spot containment can be used for tanks, separators and vehicles.
Tip: Float-up walls reduce impalement and tripping concerns.
Tip: Drive-through options eliminate need to drop and raise walls.
SPCC 40 CFR 112.7NPDES 40 CFR 122.26RCRA 40 CFR 264.175
Fluid Dispensing
Fluid dispensing is a high-risk area for spills.
Tip: Place quick-throw berms or basins under hose connections and valves.
OSHA 29 CFR 1910.106SPCC 40 CFR 112.7NPDES 40 CFR 122.26
Chemical Storage Containment
Chemical Storage
Both liquid and dry chemicalsshould be on containment.
Tip: Maintain a driveway betweenpad containment and chemical storage containment to reduce high-traffic area.
Tip: Compartmentalize flammables and incompatible materials.
OSHA 29 CFR 1910.106SPCC 40 CFR 112.7NPDES 40 CFR 122.26
Active Containment
Universal Spill Removal
Surround spill with booms to prevent spreading.
Tip: Choose socks filled with earthen materials to create strongercontainment dikes.
Tip: Absorbent mats cover largesurface areas to soak up spills.
SPCC 40 CFR 112.7NPDES 40 CFR 122.26
Oil/Diesel Spill Removal
Oil-only absorbents will not pick up water, which reduces disposal costs.
Tip: Place booms at an angle inwater basins as a preventativemeasure.
Tip: Select UV-resistant absorbents if installed in the field for more than 3 months.
SPCC 40 CFR 112.7NPDES 40 CFR 122.26
Response Trailers
Equipment available for cleanup of a given spill must be listed.
Tip: Use GPS coordinates to marklocations of the off-site trailers.
Tip: Keep first responder boomsupplies on site to surround perimeter.
OSHA 29 CFR 1910.120SPCC 40 CFR 112.7
Truck Kits
Address the typical failure modeand the most likely quantity.
Tip: 5- to 8-gallon kits fit inside cabs.
Tip: Consider pop-up pools for fuel tank damage and shovels forspills to soil.
OSHA 29 CFR 1910.120SPCC 40 CFR 112.7
Drain Covers
Storm drains are a major entry point into U.S. waters, which can trigger multiple violations.
Tip: Cover drains during bulk transfer as a precaution.
SPCC 40 CFR 112.7NPDES 40 CFR 122.26
Waste Collection – Solid
Reduce air pollutant emissions from storage containers with continuous gaskets.
Tip: Latching lids provide easy access for frequently opened and closed containers.
RCRA 40 CFR 262.34RCRA 40 CFR 264.1086
Waste Collection – Liquid
Hazardous waste can be collected in satellite accumulation drums in quantities of 55 gallons or less.
Tip: Use a funnel with integral venting and overflow prevention to reduce spills.
OSHA 29 CFR 264.1086RCRA 40 CFR 262.34 RCRA 40 CFR 264.173